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Determination of Washability Indexes of Elbistan Lignites by Dense Medium Methods

Year 2018, Volume: 21 Issue: 4, 295 - 304, 24.12.2018

İsmail Bentli Aydan Aksoğan Korkmaz

https://doi.org/10.17780/ksujes.360536

Abstract

In this study, the washability features Kahramanmaraş-Elbistan lignite
was investigated. Experimental studies were carried out with the lignite
samples taken from Kahramanmaraş-Elbistan in Turkey. Firstly, float-sink test
were made on -31.5+19 mm,   -19+4.75 mm
and -4.75+0.5 mm particle size fractions. Then, assessment of the washability
features was made by using washability number (W), index of washability (WI)
and near gravity material index (NGMI). It has also been attempted to find out
whether it is easy or difficult to enrichment Elbistan lignite with gravity
methods by using washability index methods. From all these calculations, it is
concluded that Elbistan lignite is very difficult to wash and gravity
enrichment, only it to be washed under control at a certain density (1,55-1,65
g/cm3).

Keywords

Lignite sink-float washability number index of washability

References

  • Aksoğan Korkmaz, A., (2017). Zenginleştirme Yöntemlerinin Değişik Linyitlerin Piroliz Ürün Verimleri Üzerine Etkisi. İnönü Üniversitesi FBE Maden Mühendisliği Ana Bilim Dalı, Doktora Tezi, 210 s.
  • Korkmaz, A.A., Bentli, İ., (2017). Determination of Washability Characteristics of Arguvan (Malatya) Lignite by Different Washability Index Method, Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 39 (14), 1572-1580.
  • Ateşok, G., Önal, G., Yıldırım, İ., Altaş, A., (1993). Reichert Spiralinin Kullanımı ve Türk Kömürlerine Uygulanabilirliği, Türkiye XIII. Madencilik Kongresi, İstanbul, 10-14 Mayıs, 619-628.
  • Ayhan, F.D., Abakay Temel, H., (2008). Eskişehir-Mihalıççık Linyitinin Yıkanabilme Özelliklerinin Araştırılması, Madencilik, 47, 35-42.
  • Cebeci, Y., Aslan, N., (2002). Using Float-Sink Data in Simple Equations to Predict Sulfur Contents, Fuel Processing Technology, 76, 231-239.
  • Cicioğlu Sütçü, E., Karayiğit, A.İ., (2015). Mineral matter, major and trace element content of the Afşin-Elbistan coals Kahramanmaraş Turkey, International Journal of Coal Geology, 144-145, 111-129.
  • Çakal, G.Ö., Yücel, H., Güniz Gürüz, A., (2007). Physical and chemical properties of selected Turkish lignites and their pyrolysis and gasification rates determined by thermogravimetric analysis, Journal of Analytical and Applied Pyrolysis, 80, 262-268.
  • Drzymala, J., (2007). Mineral Processing, Foundations of Theory and Practice of Minerallurgy, Wroclaw University of Technology, Poland, 507 p.
  • Elbeyli, İ.Y., Pişkin, S. (2006). Combustion and pyrolysis characteristics of Tunçbilek lignite, Journal of Thermal Analysis and Calorimetry, 83, 721-726.
  • Govindarajan, B., Rao, T.C., (1994). Indexing the Washability Characteristics of Coal, International Journal of Mineral Processing, 42, 285-293.
  • Holuszko, M.E., Grieve, D.A., (1990). Washability Characteristics of British Columbia Coals, British Columbia Geological Survey, 1, 371-379.
  • Karayiğit, A.İ., Gayer, R.A., Querol, X., Onacak, T., (2000). Contents of major and trace elements in feed coals from Turkish coal-fired power plants, International Journal of Coal Geology, 44, 169-184.
  • Karayiğit, A.İ., Gayer, R.A., (2000). Trace elements in a Pliocene-Pleistocene lignite profile from Afşin-Elbistan field, Eastern Turkey. Energy Sources, 22, 13-21. Kemal, M., Arslan, V., (2010). Kömür Teknolojisi, Dokuz Eylül Üniversitesi Mühendislik Fakültesi Yayınları, No.33, İzmir, Türkiye, 394 s.
  • Kemal, M., Semerkant, O., (1988). Türkiye linyit potansiyeli ve kullanım olanağı, Madencilik, 27, 17-31.
  • Kizgut, S., Baran, Y., Çuhadaroğlu, D. (2003). Reactivity and characterisation of various rank Turkish bituminous coal chars, Journal of Thermal Analysis and Calorimetry, 71, 857-865.
  • Kurumuş, İ., Yıldırım, M., (2004). Afşin/Elbistan linyitlerindeki külün azaltılması, Türkiye 14. Kömür Kongresi, Zonguldak, 2-4 Haziran, 141-148.
  • Majumder, A.K., Barnwal, J.P., (2004). Development of A New Coal Washability Index, Minerals Engineering, 17, 93-96.
  • Mir, F., (2014). Washability Characteristic of Low Volatile Pakistani Coking Coal by Crushing, Journal of Minerals and Materials Characterization and Engineering, 2, 502-506.
  • Mohanta, S., Sahoo, B., Behera, I.D., Pradhan, S., (2016). Effect of Crushing on Near-Gravity Material Distribution in Different Size Fractions of An Indian Non-Coking Coal, The Journal of The Southern African Institute of Mining and Metallurgy, 95, 209-213.
  • Nasir, S., Kucerik, J., Mahmood, Z., (2012). A Study on the Washability of the Azad Kashmir (Pakistan) Coalfield. Fuel Processing Technology, 99, 75-81.
  • Sakintuna, B., Yürüm, Y., (2004). Evolution of carbon microstructures during the pyrolysis of Turkish Elbistan lignite in the temperature range 700-1000°C, Energy and Fuels, 18, 883-888.
  • Salama, A.I., (1998). Coal Washability Characteristics Index Utilizing the M-Curve and the CM-Curve, International Journal of Mineral Processing, 55, 139–152.
  • Sekhar, S.C., Sarkar, B., Das, A., Chattoraj, U.S., Kumar, V., Rao, K.V., Bhattacharyya, K.K., (2007). Analysis of the Washability Characteristics of Low-Volatile Indian Coking Coal with Crushing at Different Top Sizes - A Case Study, Advanced Gravity Separation, 83, 188-194.
  • Uzun, D., Özdoğan, S., (2011). Combustion characteristics of the original and demineralized Afşin-Elbistan lignite and its char, Energy Sources, Part A 33, 283-297.
  • Ünlü, M., 1990. The Washability Characteristics and Washing Possibilities of Turkish Lignites, Proc. 3rd. International Mineral Processing Symposium, İstanbul Technical Universty, September 11-13, 274-286.
  • Zhang, Q., Tian, Y., Qui, Y., Cao, J., Xiao, T., (2011). Study on the Washability of the Kaitai Coal, Guizhou Province China, Fuel Processing Technology, 92, 692-698.
  • Zhang, W., Jiang, S., Wang, K., Wang, L., Xu, Y., Wu, Z., Shao, H., Wang, Y., Miao, M. (2015). Thermogravimetric Dynamics and FTIR analysis on oxidation properties of low-rank coal at low and moderate temperatures, International Journal of Coal Preparation and Utilization, 35, 39-50.

Elbistan Linyitlerinin Ağır-Ortam Yöntemi ile Yıkanabilirlik İndekslerinin Belirlenmesi

Year 2018, Volume: 21 Issue: 4, 295 - 304, 24.12.2018

İsmail Bentli Aydan Aksoğan Korkmaz

https://doi.org/10.17780/ksujes.360536

Abstract

Bu çalışmada, Kahramanmaraş-Elbistan linyitinin yıkanabilirlik
özellikleri araştırılmıştır. Bu amaçla sahadan alınan linyit örneğinden
-31,5+19 mm, -19+4,75 mm ve -4,75+0,5 mm olmak üzere 3 ayrı boyutta
yüzdürme-batırma deneyleri gerçekleştirilmiştir. Daha sonra yıkanabilirlik
sayısı (W), yıkanabilirlik indeksi/Govindarajan indeksi (WI/GWI) ve yakın
yoğunlukta malzeme indeksi (NGMI) gibi farklı yıkanabilirlik indeksleri
kullanılarak, Elbistan linyitinin karşılaştırmalı olarak yüzebilirlik özelliği
ve gravite yöntemleri ile zenginleştirilmesinin kolay veya zor olacağı ortaya
çıkarılmaya çalışılmıştır. Tüm bu hesaplamalardan Elbistan linyitinin
yıkanabilirliğinin ve zenginleştirilmesinin çok zor olduğu, sadece belirli bir
yoğunluk aralığında (1,55-1,65 g/cm3)
kontrollü olarak yıkanması gerektiği sonucuna varılmıştır. 

Keywords

Linyit yüzdürme-batırma yıkanabilirlik sayısı yıkanabilirlik indeksi

References

  • Aksoğan Korkmaz, A., (2017). Zenginleştirme Yöntemlerinin Değişik Linyitlerin Piroliz Ürün Verimleri Üzerine Etkisi. İnönü Üniversitesi FBE Maden Mühendisliği Ana Bilim Dalı, Doktora Tezi, 210 s.
  • Korkmaz, A.A., Bentli, İ., (2017). Determination of Washability Characteristics of Arguvan (Malatya) Lignite by Different Washability Index Method, Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 39 (14), 1572-1580.
  • Ateşok, G., Önal, G., Yıldırım, İ., Altaş, A., (1993). Reichert Spiralinin Kullanımı ve Türk Kömürlerine Uygulanabilirliği, Türkiye XIII. Madencilik Kongresi, İstanbul, 10-14 Mayıs, 619-628.
  • Ayhan, F.D., Abakay Temel, H., (2008). Eskişehir-Mihalıççık Linyitinin Yıkanabilme Özelliklerinin Araştırılması, Madencilik, 47, 35-42.
  • Cebeci, Y., Aslan, N., (2002). Using Float-Sink Data in Simple Equations to Predict Sulfur Contents, Fuel Processing Technology, 76, 231-239.
  • Cicioğlu Sütçü, E., Karayiğit, A.İ., (2015). Mineral matter, major and trace element content of the Afşin-Elbistan coals Kahramanmaraş Turkey, International Journal of Coal Geology, 144-145, 111-129.
  • Çakal, G.Ö., Yücel, H., Güniz Gürüz, A., (2007). Physical and chemical properties of selected Turkish lignites and their pyrolysis and gasification rates determined by thermogravimetric analysis, Journal of Analytical and Applied Pyrolysis, 80, 262-268.
  • Drzymala, J., (2007). Mineral Processing, Foundations of Theory and Practice of Minerallurgy, Wroclaw University of Technology, Poland, 507 p.
  • Elbeyli, İ.Y., Pişkin, S. (2006). Combustion and pyrolysis characteristics of Tunçbilek lignite, Journal of Thermal Analysis and Calorimetry, 83, 721-726.
  • Govindarajan, B., Rao, T.C., (1994). Indexing the Washability Characteristics of Coal, International Journal of Mineral Processing, 42, 285-293.
  • Holuszko, M.E., Grieve, D.A., (1990). Washability Characteristics of British Columbia Coals, British Columbia Geological Survey, 1, 371-379.
  • Karayiğit, A.İ., Gayer, R.A., Querol, X., Onacak, T., (2000). Contents of major and trace elements in feed coals from Turkish coal-fired power plants, International Journal of Coal Geology, 44, 169-184.
  • Karayiğit, A.İ., Gayer, R.A., (2000). Trace elements in a Pliocene-Pleistocene lignite profile from Afşin-Elbistan field, Eastern Turkey. Energy Sources, 22, 13-21. Kemal, M., Arslan, V., (2010). Kömür Teknolojisi, Dokuz Eylül Üniversitesi Mühendislik Fakültesi Yayınları, No.33, İzmir, Türkiye, 394 s.
  • Kemal, M., Semerkant, O., (1988). Türkiye linyit potansiyeli ve kullanım olanağı, Madencilik, 27, 17-31.
  • Kizgut, S., Baran, Y., Çuhadaroğlu, D. (2003). Reactivity and characterisation of various rank Turkish bituminous coal chars, Journal of Thermal Analysis and Calorimetry, 71, 857-865.
  • Kurumuş, İ., Yıldırım, M., (2004). Afşin/Elbistan linyitlerindeki külün azaltılması, Türkiye 14. Kömür Kongresi, Zonguldak, 2-4 Haziran, 141-148.
  • Majumder, A.K., Barnwal, J.P., (2004). Development of A New Coal Washability Index, Minerals Engineering, 17, 93-96.
  • Mir, F., (2014). Washability Characteristic of Low Volatile Pakistani Coking Coal by Crushing, Journal of Minerals and Materials Characterization and Engineering, 2, 502-506.
  • Mohanta, S., Sahoo, B., Behera, I.D., Pradhan, S., (2016). Effect of Crushing on Near-Gravity Material Distribution in Different Size Fractions of An Indian Non-Coking Coal, The Journal of The Southern African Institute of Mining and Metallurgy, 95, 209-213.
  • Nasir, S., Kucerik, J., Mahmood, Z., (2012). A Study on the Washability of the Azad Kashmir (Pakistan) Coalfield. Fuel Processing Technology, 99, 75-81.
  • Sakintuna, B., Yürüm, Y., (2004). Evolution of carbon microstructures during the pyrolysis of Turkish Elbistan lignite in the temperature range 700-1000°C, Energy and Fuels, 18, 883-888.
  • Salama, A.I., (1998). Coal Washability Characteristics Index Utilizing the M-Curve and the CM-Curve, International Journal of Mineral Processing, 55, 139–152.
  • Sekhar, S.C., Sarkar, B., Das, A., Chattoraj, U.S., Kumar, V., Rao, K.V., Bhattacharyya, K.K., (2007). Analysis of the Washability Characteristics of Low-Volatile Indian Coking Coal with Crushing at Different Top Sizes - A Case Study, Advanced Gravity Separation, 83, 188-194.
  • Uzun, D., Özdoğan, S., (2011). Combustion characteristics of the original and demineralized Afşin-Elbistan lignite and its char, Energy Sources, Part A 33, 283-297.
  • Ünlü, M., 1990. The Washability Characteristics and Washing Possibilities of Turkish Lignites, Proc. 3rd. International Mineral Processing Symposium, İstanbul Technical Universty, September 11-13, 274-286.
  • Zhang, Q., Tian, Y., Qui, Y., Cao, J., Xiao, T., (2011). Study on the Washability of the Kaitai Coal, Guizhou Province China, Fuel Processing Technology, 92, 692-698.
  • Zhang, W., Jiang, S., Wang, K., Wang, L., Xu, Y., Wu, Z., Shao, H., Wang, Y., Miao, M. (2015). Thermogravimetric Dynamics and FTIR analysis on oxidation properties of low-rank coal at low and moderate temperatures, International Journal of Coal Preparation and Utilization, 35, 39-50.
There are 27 citations in total.

Details

Primary Language Turkish
Subjects Environmental Engineering
Journal Section Environmental Engineering
Authors

İsmail Bentli

Aydan Aksoğan Korkmaz

Publication Date December 24, 2018
Submission Date December 2, 2017
Published in Issue Year 2018Volume: 21 Issue: 4

Cite

APA Bentli, İ., & Aksoğan Korkmaz, A. (2018). Elbistan Linyitlerinin Ağır-Ortam Yöntemi ile Yıkanabilirlik İndekslerinin Belirlenmesi. Kahramanmaraş Sütçü İmam Üniversitesi Mühendislik Bilimleri Dergisi, 21(4), 295-304. https://doi.org/10.17780/ksujes.360536